// Copyright 2018 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. #include "go_asm.h" #include "go_tls.h" #include "textflag.h" #include "funcdata.h" #include "time_windows.h" // Offsets into Thread Environment Block (pointer in R18) #define TEB_error 0x68 #define TEB_TlsSlots 0x1480 // Note: R0-R7 are args, R8 is indirect return value address, // R9-R15 are caller-save, R19-R29 are callee-save. // // load_g and save_g (in tls_arm64.s) clobber R27 (REGTMP) and R0. // void runtime·asmstdcall(void *c); TEXT runtime·asmstdcall(SB),NOSPLIT|NOFRAME,$0 STP.W (R29, R30), -32(RSP) // allocate C ABI stack frame STP (R19, R20), 16(RSP) // save old R19, R20 MOVD R0, R19 // save libcall pointer MOVD RSP, R20 // save stack pointer // SetLastError(0) MOVD $0, TEB_error(R18_PLATFORM) MOVD libcall_args(R19), R12 // libcall->args // Do we have more than 8 arguments? MOVD libcall_n(R19), R0 CMP $0, R0; BEQ _0args CMP $1, R0; BEQ _1args CMP $2, R0; BEQ _2args CMP $3, R0; BEQ _3args CMP $4, R0; BEQ _4args CMP $5, R0; BEQ _5args CMP $6, R0; BEQ _6args CMP $7, R0; BEQ _7args CMP $8, R0; BEQ _8args // Reserve stack space for remaining args SUB $8, R0, R2 ADD $1, R2, R3 // make even number of words for stack alignment AND $~1, R3 LSL $3, R3 SUB R3, RSP // R4: size of stack arguments (n-8)*8 // R5: &args[8] // R6: loop counter, from 0 to (n-8)*8 // R7: scratch // R8: copy of RSP - (R2)(RSP) assembles as (R2)(ZR) SUB $8, R0, R4 LSL $3, R4 ADD $(8*8), R12, R5 MOVD $0, R6 MOVD RSP, R8 stackargs: MOVD (R6)(R5), R7 MOVD R7, (R6)(R8) ADD $8, R6 CMP R6, R4 BNE stackargs _8args: MOVD (7*8)(R12), R7 _7args: MOVD (6*8)(R12), R6 _6args: MOVD (5*8)(R12), R5 _5args: MOVD (4*8)(R12), R4 _4args: MOVD (3*8)(R12), R3 _3args: MOVD (2*8)(R12), R2 _2args: MOVD (1*8)(R12), R1 _1args: MOVD (0*8)(R12), R0 _0args: MOVD libcall_fn(R19), R12 // branch to libcall->fn BL (R12) MOVD R20, RSP // free stack space MOVD R0, libcall_r1(R19) // save return value to libcall->r1 // TODO(rsc) floating point like amd64 in libcall->r2? // GetLastError MOVD TEB_error(R18_PLATFORM), R0 MOVD R0, libcall_err(R19) // Restore callee-saved registers. LDP 16(RSP), (R19, R20) LDP.P 32(RSP), (R29, R30) RET TEXT runtime·badsignal2(SB),NOSPLIT,$16-0 NO_LOCAL_POINTERS // stderr MOVD runtime·_GetStdHandle(SB), R1 MOVD $-12, R0 SUB $16, RSP // skip over saved frame pointer below RSP BL (R1) ADD $16, RSP // handle in R0 already MOVD $runtime·badsignalmsg(SB), R1 // lpBuffer MOVD $runtime·badsignallen(SB), R2 // lpNumberOfBytesToWrite MOVD (R2), R2 MOVD R13, R3 // lpNumberOfBytesWritten MOVD $0, R4 // lpOverlapped MOVD runtime·_WriteFile(SB), R12 SUB $16, RSP // skip over saved frame pointer below RSP BL (R12) // Does not return. B runtime·abort(SB) RET TEXT runtime·getlasterror(SB),NOSPLIT|NOFRAME,$0 MOVD TEB_error(R18_PLATFORM), R0 MOVD R0, ret+0(FP) RET #define SAVE_R19_TO_R28(offset) \ MOVD R19, savedR19+((offset)+0*8)(SP); \ MOVD R20, savedR20+((offset)+1*8)(SP); \ MOVD R21, savedR21+((offset)+2*8)(SP); \ MOVD R22, savedR22+((offset)+3*8)(SP); \ MOVD R23, savedR23+((offset)+4*8)(SP); \ MOVD R24, savedR24+((offset)+5*8)(SP); \ MOVD R25, savedR25+((offset)+6*8)(SP); \ MOVD R26, savedR26+((offset)+7*8)(SP); \ MOVD R27, savedR27+((offset)+8*8)(SP); \ MOVD g, savedR28+((offset)+9*8)(SP); #define RESTORE_R19_TO_R28(offset) \ MOVD savedR19+((offset)+0*8)(SP), R19; \ MOVD savedR20+((offset)+1*8)(SP), R20; \ MOVD savedR21+((offset)+2*8)(SP), R21; \ MOVD savedR22+((offset)+3*8)(SP), R22; \ MOVD savedR23+((offset)+4*8)(SP), R23; \ MOVD savedR24+((offset)+5*8)(SP), R24; \ MOVD savedR25+((offset)+6*8)(SP), R25; \ MOVD savedR26+((offset)+7*8)(SP), R26; \ MOVD savedR27+((offset)+8*8)(SP), R27; \ MOVD savedR28+((offset)+9*8)(SP), g; /* R28 */ // Called by Windows as a Vectored Exception Handler (VEH). // First argument is pointer to struct containing // exception record and context pointers. // Handler function is stored in R1 // Return 0 for 'not handled', -1 for handled. // int32_t sigtramp( // PEXCEPTION_POINTERS ExceptionInfo, // func *GoExceptionHandler); TEXT sigtramp<>(SB),NOSPLIT|NOFRAME,$0 // Save R0, R1 (args) as well as LR, R27, R28 (callee-save). MOVD R0, R5 MOVD R1, R6 MOVD LR, R7 MOVD R27, R16 // saved R27 (callee-save) MOVD g, R17 // saved R28 (callee-save from Windows, not really g) BL runtime·load_g(SB) // smashes R0, R27, R28 (g) CMP $0, g // is there a current g? BNE 2(PC) BL runtime·badsignal2(SB) // Do we need to switch to the g0 stack? MOVD g, R3 // R3 = oldg (for sigtramp_g0) MOVD g_m(g), R2 // R2 = m MOVD m_g0(R2), R2 // R2 = g0 CMP g, R2 // if curg == g0 BNE switch // No: on g0 stack already, tail call to sigtramp_g0. // Restore all the callee-saves so sigtramp_g0 can return to our caller. // We also pass R2 = g0, R3 = oldg, both set above. MOVD R5, R0 MOVD R6, R1 MOVD R7, LR MOVD R16, R27 // restore R27 MOVD R17, g // restore R28 B sigtramp_g0<>(SB) switch: // switch to g0 stack (but do not update g - that's sigtramp_g0's job) MOVD RSP, R8 MOVD (g_sched+gobuf_sp)(R2), R4 // R4 = g->gobuf.sp SUB $(6*8), R4 // alloc space for saves - 2 words below SP for frame pointer, 3 for us to use, 1 for alignment MOVD R4, RSP // switch to g0 stack MOVD $0, (0*8)(RSP) // fake saved LR MOVD R7, (1*8)(RSP) // saved LR MOVD R8, (2*8)(RSP) // saved SP MOVD R5, R0 // original args MOVD R6, R1 // original args MOVD R16, R27 MOVD R17, g // R28 BL sigtramp_g0<>(SB) // switch back to original stack; g already updated MOVD (1*8)(RSP), R7 // saved LR MOVD (2*8)(RSP), R8 // saved SP MOVD R7, LR MOVD R8, RSP RET // sigtramp_g0 is running on the g0 stack, with R2 = g0, R3 = oldg. // But g itself is not set - that's R28, a callee-save register, // and it still holds the value from the Windows DLL caller. TEXT sigtramp_g0<>(SB),NOSPLIT,$128 NO_LOCAL_POINTERS // Push C callee-save registers R19-R28. LR, FP already saved. SAVE_R19_TO_R28(-10*8) MOVD 0(R0), R5 // R5 = ExceptionPointers->ExceptionRecord MOVD 8(R0), R6 // R6 = ExceptionPointers->ContextRecord MOVD R6, context-(11*8)(SP) MOVD R2, g // g0 BL runtime·save_g(SB) // smashes R0 MOVD R5, (1*8)(RSP) // arg0 (ExceptionRecord) MOVD R6, (2*8)(RSP) // arg1 (ContextRecord) MOVD R3, (3*8)(RSP) // arg2 (original g) MOVD R3, oldg-(12*8)(SP) BL (R1) MOVD oldg-(12*8)(SP), g BL runtime·save_g(SB) // smashes R0 MOVW (4*8)(RSP), R0 // return value (0 or -1) // if return value is CONTINUE_SEARCH, do not set up control // flow guard workaround CMP $0, R0 BEQ return // Check if we need to set up the control flow guard workaround. // On Windows, the stack pointer in the context must lie within // system stack limits when we resume from exception. // Store the resume SP and PC in alternate registers // and return to sigresume on the g0 stack. // sigresume makes no use of the stack at all, // loading SP from R0 and jumping to R1. // Note that smashing R0 and R1 is only safe because we know sigpanic // will not actually return to the original frame, so the registers // are effectively dead. But this does mean we can't use the // same mechanism for async preemption. MOVD context-(11*8)(SP), R6 MOVD context_pc(R6), R2 // load PC from context record MOVD $sigresume<>(SB), R1 CMP R1, R2 BEQ return // do not clobber saved SP/PC // Save resume SP and PC into R0, R1. MOVD context_xsp(R6), R2 MOVD R2, (context_x+0*8)(R6) MOVD context_pc(R6), R2 MOVD R2, (context_x+1*8)(R6) // Set up context record to return to sigresume on g0 stack MOVD RSP, R2 MOVD R2, context_xsp(R6) MOVD $sigresume<>(SB), R2 MOVD R2, context_pc(R6) return: RESTORE_R19_TO_R28(-10*8) // smashes g RET // Trampoline to resume execution from exception handler. // This is part of the control flow guard workaround. // It switches stacks and jumps to the continuation address. // R0 and R1 are set above at the end of sigtramp<> // in the context that starts executing at sigresume<>. TEXT sigresume<>(SB),NOSPLIT|NOFRAME,$0 // Important: do not smash LR, // which is set to a live value when handling // a signal by pushing a call to sigpanic onto the stack. MOVD R0, RSP B (R1) TEXT runtime·exceptiontramp(SB),NOSPLIT|NOFRAME,$0 MOVD $runtime·exceptionhandler(SB), R1 B sigtramp<>(SB) TEXT runtime·firstcontinuetramp(SB),NOSPLIT|NOFRAME,$0 MOVD $runtime·firstcontinuehandler(SB), R1 B sigtramp<>(SB) TEXT runtime·lastcontinuetramp(SB),NOSPLIT|NOFRAME,$0 MOVD $runtime·lastcontinuehandler(SB), R1 B sigtramp<>(SB) GLOBL runtime·cbctxts(SB), NOPTR, $4 TEXT runtime·callbackasm1(SB),NOSPLIT,$208-0 NO_LOCAL_POINTERS // On entry, the trampoline in zcallback_windows_arm64.s left // the callback index in R12 (which is volatile in the C ABI). // Save callback register arguments R0-R7. // We do this at the top of the frame so they're contiguous with stack arguments. // The 7*8 setting up R14 looks like a bug but is not: the eighth word // is the space the assembler reserved for our caller's frame pointer, // but we are not called from Go so that space is ours to use, // and we must to be contiguous with the stack arguments. MOVD $arg0-(7*8)(SP), R14 MOVD R0, (0*8)(R14) MOVD R1, (1*8)(R14) MOVD R2, (2*8)(R14) MOVD R3, (3*8)(R14) MOVD R4, (4*8)(R14) MOVD R5, (5*8)(R14) MOVD R6, (6*8)(R14) MOVD R7, (7*8)(R14) // Push C callee-save registers R19-R28. // LR, FP already saved. SAVE_R19_TO_R28(-18*8) // Create a struct callbackArgs on our stack. MOVD $cbargs-(18*8+callbackArgs__size)(SP), R13 MOVD R12, callbackArgs_index(R13) // callback index MOVD R14, R0 MOVD R0, callbackArgs_args(R13) // address of args vector MOVD $0, R0 MOVD R0, callbackArgs_result(R13) // result // Call cgocallback, which will call callbackWrap(frame). MOVD $·callbackWrap(SB), R0 // PC of function to call MOVD R13, R1 // frame (&callbackArgs{...}) MOVD $0, R2 // context MOVD R0, (1*8)(RSP) MOVD R1, (2*8)(RSP) MOVD R2, (3*8)(RSP) BL runtime·cgocallback(SB) // Get callback result. MOVD $cbargs-(18*8+callbackArgs__size)(SP), R13 MOVD callbackArgs_result(R13), R0 RESTORE_R19_TO_R28(-18*8) RET // uint32 tstart_stdcall(M *newm); TEXT runtime·tstart_stdcall(SB),NOSPLIT,$96-0 SAVE_R19_TO_R28(-10*8) MOVD m_g0(R0), g MOVD R0, g_m(g) BL runtime·save_g(SB) // Set up stack guards for OS stack. MOVD RSP, R0 MOVD R0, g_stack+stack_hi(g) SUB $(64*1024), R0 MOVD R0, (g_stack+stack_lo)(g) MOVD R0, g_stackguard0(g) MOVD R0, g_stackguard1(g) BL runtime·emptyfunc(SB) // fault if stack check is wrong BL runtime·mstart(SB) RESTORE_R19_TO_R28(-10*8) // Exit the thread. MOVD $0, R0 RET // Runs on OS stack. // duration (in -100ns units) is in dt+0(FP). // g may be nil. TEXT runtime·usleep2(SB),NOSPLIT,$32-4 MOVW dt+0(FP), R0 MOVD $16(RSP), R2 // R2 = pTime MOVD R0, 0(R2) // *pTime = -dt MOVD $-1, R0 // R0 = handle MOVD $0, R1 // R1 = FALSE (alertable) MOVD runtime·_NtWaitForSingleObject(SB), R3 SUB $16, RSP // skip over saved frame pointer below RSP BL (R3) ADD $16, RSP RET // Runs on OS stack. // duration (in -100ns units) is in dt+0(FP). // g is valid. // TODO: neeeds to be implemented properly. TEXT runtime·usleep2HighRes(SB),NOSPLIT,$0-4 B runtime·abort(SB) // Runs on OS stack. TEXT runtime·switchtothread(SB),NOSPLIT,$16-0 MOVD runtime·_SwitchToThread(SB), R0 SUB $16, RSP // skip over saved frame pointer below RSP BL (R0) ADD $16, RSP RET TEXT runtime·nanotime1(SB),NOSPLIT|NOFRAME,$0-8 MOVB runtime·useQPCTime(SB), R0 CMP $0, R0 BNE useQPC MOVD $_INTERRUPT_TIME, R3 loop: MOVWU time_hi1(R3), R1 MOVWU time_lo(R3), R0 MOVWU time_hi2(R3), R2 CMP R1, R2 BNE loop // wintime = R1:R0, multiply by 100 ORR R1<<32, R0 MOVD $100, R1 MUL R1, R0 MOVD R0, ret+0(FP) RET useQPC: B runtime·nanotimeQPC(SB) // tail call // This is called from rt0_go, which runs on the system stack // using the initial stack allocated by the OS. // It calls back into standard C using the BL below. TEXT runtime·wintls(SB),NOSPLIT,$0 // Allocate a TLS slot to hold g across calls to external code MOVD runtime·_TlsAlloc(SB), R0 SUB $16, RSP // skip over saved frame pointer below RSP BL (R0) ADD $16, RSP // Assert that slot is less than 64 so we can use _TEB->TlsSlots CMP $64, R0 BLT ok MOVD $runtime·abort(SB), R1 BL (R1) ok: // Save offset from R18 into tls_g. LSL $3, R0 ADD $TEB_TlsSlots, R0 MOVD R0, runtime·tls_g(SB) RET